基于 LAMP 的氢离子选择性电化学传感器用于高灵敏度检测肺炎支原体

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Huiqing Wang, Yang Li, Lin Tian, Xinyi Li, Qian Gao, Yaru Liu, Cuiping Ma, Qing Wang and Chao Shi
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引用次数: 0

摘要

由于肺炎支原体对人类健康的严重影响,迫切需要一种简便、快速的肺炎支原体检测方法。为满足这一需求,本研究提出并构建了一种创新的床旁检测(POCT)平台,该平台由氢离子选择性环介导等温扩增(H+-LAMP)传感器和电化学检测装置组成。H+-LAMP 传感器成功整合了工作电极和参比电极,并将 LAMP 过程中产生的 H+ 转化为电化学信号。通过对工作电极进行电沉积聚苯胺固体接触层处理和使用离子选择膜,还实现了病原体检测的高灵敏度和稳定性。结果表明,该传感器的灵敏度为 68.26 mV/pH,响应时间小于 2 秒,一小时内电位漂移小于 5 mV,完全满足急需。结果还表明,肺炎支原体的检测限降至 1 拷贝/μL,核酸提取和检测过程可在 30 分钟内完成,干扰离子对传感器的影响可以忽略不计。20 份临床样本的验证结果令人满意。更重要的是,这种电化学传感器的储存寿命超过七天,这对于现场病原体检测来说是一大优势。因此,本研究构建的氢离子选择性传感器特别适合作为病原体即时检测平台的核心部件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A LAMP-based hydrogen ion selective electrochemical sensor for highly sensitive detection of Mycoplasma pneumoniae†

A LAMP-based hydrogen ion selective electrochemical sensor for highly sensitive detection of Mycoplasma pneumoniae†

A concise and rapid detection method for Mycoplasma pneumoniae is urgently required due to its severe impact on human health. To meet such a need, this study proposed and constructed an innovative point-of-care testing (POCT) platform that consists of a hydrogen ion-selective loop-mediated isothermal amplification (H+-LAMP) sensor and an electrochemical detection device. The H+-LAMP sensor successfully integrated the working and reference electrodes and converted the H+ generated during the LAMP process into an electrochemical signal. High sensitivity and stability for pathogen detection were also achieved by treating the working electrode with an electrodeposited polyaniline solid contact layer and by using an ion-selective membrane. As a result, the sensor shows a sensitivity of 68.26 mV per pH, a response time of less than 2 s, and a potential drift of less than 5 mV within one hour, which well meets the urgent need. The results also demonstrated that the detection limit for Mycoplasma pneumoniae was lowered to 1 copy per μL, the nucleic acid extraction and detection process could be completed in 30 minutes, and the impact of interfering ions on the sensor was negligible. Validation with 20 clinical samples yielded satisfactory results. More importantly, the storage lifespan of such an electrochemical sensor is over seven days, which is a great advantage for on-site pathogen detection. Therefore, the hydrogen ion-selective sensor constructed in this investigation is particularly suitable as a core component for instant pathogen detection platforms.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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